R. A. Batavani scite author profile

BackgroundMesenchymal stem cells (MSCs), have been suggested as a potential choice for treatment of male infertility. Yet, the effects of MSCs on regeneration of germinal epithelium of seminiferous tubules and recovery of spermatogenesis have remained controversial. In this research, we have evaluated and compared the fate of autologous bone marrow (BM)-MSCs during three different periods of time- 4, 6 and 8 weeks after transplantation into the testes of busulfan-induced infertile male rats.MethodsRats BM samples were collected from tibia bone under anesthesia. The samples were directly cultured in culture medium. Isolated, characterized and purified BM-MSCs were labeled with PKH26, and transplanted into the testes of infertile rats. After 4, 6 and 8 weeks, the testes were removed and underwent histological evaluations.ResultsImmunohistochemical analysis showed that transplanted BM-MSCs survived in all three groups. Some of the cells homed at the germinal epithelium and expressed spermatogonia markers (Dazl and Stella). The number of homed spermatogonia-like cells in 4-week testes, was more than the 6-week testes. The 8-week testes had the least numbers of homed cells (p<0.05). Immunostaining for vimentin showed that BM-MSCs did not differentiate into the sertoli cells in the testes.ConclusionsFrom our results, it could be concluded that, autologous BM-MSCs could survive in the testis, migrate onto the seminiferous tubules basement membrane and differentiate into spermatogonia. Although, no more differentiation was observed in the produced spermatogonia, generation of such endogenous GCs would be a really promising achievement for treatment of male infertility using autologous stem cells.

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Comparison of the efficacy of three concentrations of retinoic acid for transdifferentiation induction in sheep marrow‐derived mesenchymal stem cells into male germ cells

Ghasemzadeh-Hasankolaei

Eslaminejad

Batavani

et al. 2012

Andrologia

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Recent studies have shown the unique role of retinoic acid (RA) in the induction of transdifferentiation in mesenchymal stem cells (MSCs) into germ cells (GCs). This study is the first study that compares the efficacy of three different concentrations of RA for the production of male GCs in vitro. Male sheep marrow-derived MSCs (MMSCs) were treated with the following concentrations of RA: 1 μm (RA1), 5 μm (RA2) and 10 μm (RA3) for a period of 21 days. The production of male GCs was evaluated by the assessment of expressions of GC-specific markers (by RT-PCR, qRT-PCR and immunocytochemistry), morphological characteristics and changes in alkaline phosphatase (ALP) activity. All three concentrations created male GC features. RA treatment upregulated the expressions of VASA and beta1 INTEGRIN and downregulated PIWIL2 and OCT4. DAZL was not expressed by RA treatment. Interestingly, immunocytochemistry detected PGP 9.5 expression in all treatment groups, with the highest expression noted in the RA3 group (P < 0.05). GC-like cells along with increased ALP activity were observed in all treated cultures, too. Finally, results showed that 10 μm RA has the most efficiency for transdifferentiation induction in MMSCs and production of male GCs in vitro.

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Effect of Zinc Ions on Differentiation of Bone Marrow-Derived Mesenchymal Stem Cells to Male Germ Cells and Some Germ Cell-Specific Gene Expression in Rams

Ghasemzadeh-Hasankolai

Batavani

Eslaminejad

et al. 2012

Biol Trace Elem Res

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This is the first report to describe the effects of zinc (Zn) ions on the expression of germ cell (GC) genes from bone marrow-derived mesenchymal stem cells (BM-MSCs). Zn plays an important role in germinal epithelium maintenance, testosterone secretion, differentiation of GCs, and spermatogenesis. In addition, several studies have suggested that MSCs have the potential for differentiation into numerous cells types, including male GCs. In this study, we have treated passage-3 ram BM-MSCs with 0.14 μg/ml Zn sulfate (ZnSO₄) for a period of 21 days with the intent to determine whether Zn treatment can stimulate MSCs to differentiate into male GCs in vitro. We also sought to determine the type of changes seen in MSCs by Zn treatment. Differentiation into male GCs was evaluated by the assessment of expressions of the following GC-specific markers: VASA, PIWIL2, OCT4, beta1 INTEGRIN (ITG b1), DAZL (by reverse transcription polymerase chain reaction (RT-PCR) and quantitative RT-PCR), and PGP 9.5 (by immunocytochemistry). Also studied were morphological characteristics and changes in alkaline phosphatase activity. Interestingly, Zn upregulated the expressions of VASA and ITG b1 but downregulated PIWIL2 and OCT4. DAZL and PGP 9.5 were not expressed in the treatment group. According to our results, Zn ions did not stimulate BM-MSCs to transdifferentiate into male GCs; however, it changed the expression of GC genes in BM-MSCs. It can be concluded that a possible mechanism by which Zn ions can increase male fertility is by regulation of the expression of testis GC-specific genes in the differentiation process and spermatogenesis.

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R. A. Batavani

Molecular typing of Staphylococcus aureus isolated from bovine mastitis based on polymorphism of the coagulase gene in the north west of Iran

Study on frequency, etiology and some enzymatic activities of subclinical ovine mastitis in Urmia, Iran

Transplantation of Autologous Bone Marrow Mesenchymal Stem Cells into the Testes of Infertile Male Rats and New Germ Cell Formation

Comparison of the efficacy of three concentrations of retinoic acid for transdifferentiation induction in sheep marrow‐derived mesenchymal stem cells into male germ cells

Effect of Zinc Ions on Differentiation of Bone Marrow-Derived Mesenchymal Stem Cells to Male Germ Cells and Some Germ Cell-Specific Gene Expression in Rams

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